DE3435838A1 - FUEL ELEMENT CASSETTE FOR PRESSURE WATER CORE REACTORS - Google Patents

Description

Fuel assembly for pressurized water nuclear reactors

The invention relates to a fuel assembly for pressurized water nuclear reactors. Such fuel assemblies generally consist of a bundle of parallel, arranged along the longitudinal axis of the cassette and transversely spaced fuel rods by means of struts. The spaces between the fuel rods allow the circulation of cooling water in which the reactor core is immersed and the formation a moderating layer of water around each fuel rod.

Pressurized water nuclear reactors consume large amounts of natural uranium and have a relatively small amount Efficiency, since only a small proportion of this uranium, which is present in the fuel assembly, is used to generate energy contributes.

However, the reprocessing of the materials from spent fuel assemblies makes plutonium possible

regain that as part of a fuel batch can be used for breeder reactors. However, breeder reactors have not yet had a large industrial one and gained commercial importance.

It has therefore been proposed to use the recovered plutonium as part of the fuel, which is inserted into the fuel rods that make up the fuel assemblies of the reactor core. This process enables larger quantities of plutonium to be introduced into the fuel batches of a nuclear reactor. On the other hand, given the neutron energy in a pressurized water reactor, this plutonium will not exploited to a satisfactory extent. In particular, this plutonium does not degrade through education

fissile isotopes _from fissile isotopes.

In a reactor core with a heterogeneous structure, this disadvantage is avoided by using fuel assemblies of different types are arranged side by side. Certain fuel assembly included with a normal Spaced apart uranium oxide fuel rods and other fuel assemblies contain fuel rods Plutonium separated by a distance much smaller than that of the fuel rods separates from enriched uranium. Thereby a hardening of the neutron spectrum is achieved, i. H. one Increasing the mean neutron energy in the fuel assemblies containing fuel rods made of plutonium, which are surrounded by a thin layer of water to moderate the neutrons.

However, this leads to the fact that various Types of fuel assemblies are used.

In order to increase the efficiency of pressurized water reactors, one has generally and without reference to the use of recovered plutonium, suggested shifting the energy spectrum of the neutrons in these reactors to high energies and the fuel a certain proportion of breeding material, such as. B. to add depleted uranium. In such Reactors must be used under-moderated fuel assemblies, in which the fuel rods with low Are arranged spaced from each other. In addition, there must be at least two different types of fuel assembly can be used, namely fuel assemblies with fissile fuel and those with breeding material. Ultimately, one wants from an under-moderated operation of the reactor, in which fissile material is produced

go to normal operation, the Fuel charge of the reactor can be completely exchanged.

Nuclear reactors in which the energy spectrum is changed have also been proposed ; such nuclear reactors are e.g. B. in FR-PS 82-18011 and FR-PS 82-18012 of Societe FRAMATOME “In these nuclear reactors, part of the guide tubes of the fuel assembly can accommodate rods of depleted uranium at the beginning of an operating cycle of the reactor, which the amount of the moderator in the fuel assembly cassettes and introduce a material which absorbs small energy neutrons and which can be converted into fissile material. However, this makes it difficult to recharge the reactor and requires more demanding handling of the various fuel assemblies forming the reactor core.

The invention is based on the object of a fuel assembly cassette for a pressurized water reactor, which consist of a bundle along the longitudinal axis of the Fuel element cassette of fuel rods arranged parallel to one another, which are spaced apart from one another in the transverse direction are arranged to the circulation of cooling water and allows the formation of a layer of water around the fuel rods to moderate the neutrons with which the Construction of the sub-moderated reactor can be simplified and the recovered plutonium used under favorable conditions, especially in reactors where the energy spectrum is changed can be.

For this purpose, the fuel assembly cartridge Edge zone formed from a first group of fuel rods, in which the fuel rods are essentially fissile Uranium-enriched uranium oxide contain the

Emit neutrons and maintain the nuclear reaction, and which are arranged at such a distance from one another that the water layer is sufficient for moderation is thick to put the neutrons in the thermal energy range, and one from a second Central zone formed by a group of fuel rods, in which the fuel rods are essentially plutonium or fissile Uranium contain depleted uranium and are arranged at a distance from one another that is essential is smaller than the distance between the fuel rods in the edge zone.

The fuel assembly cassette preferably has guide tubes arranged in the edge zone for receiving Rods to change the energy spectrum.

In the following, the invention is combined with the description of two embodiments according to the invention explained in more detail with the drawing. Show it:

1 shows a cross section through a rectangular fuel rod bundle forming the fuel element assembly;

Fig. 2 is a section on an enlarged _scale) of a portion of the central zone of the fuel cartridge shown in Fig. 1,

3 shows a cross section through a hexagonal fuel rod bundle forming a fuel assembly.

Fig. 1 shows in cross section a fuel rod bundle forming a fuel assembly with a rectangular cross section , in which the fuel rods located in the edge zone 1 of the fuel assembly according to a rectangular Grid are arranged. It is an 18 χ 18 grid, in which the fuel rods 2 through

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Lattice struts are held at a certain distance from one another. At certain positions of the grid, guide tubes 3 are arranged, which at the same time ensure the stiffening of the fuel assembly and the guidance of the rods running in them. ^;

The central area 4 of the fuel assembly cassette consists of a second fuel assembly grid 5 in which the brehn rods be kept at a certain distance from each other, which is much smaller than the distance of the Fuel rods 2 in the edge zone 1. These fuel rods are held at a distance from one another by longitudinal profile struts 6. The central area 4 of the fuel assembly contains 100 fuel rods arranged in 10 rows and 10 columns are arranged. The bundle 4 forming the central area can be passed through the transverse grid as a whole to hold the fuel rods and guide tubes of the edge zone.

The fuel rods 2 of the edge zones consist of uranium oxide filled with tablets made of uranium oxide enriched with fissile uranium Tubes., Whereas the fuel rods 5 of the central area 4 are made from with recovered plutonium filled pipes. consists.

The fuel assembly as a whole contains 216 fuel rods 2 with enriched uranium, 44 guide tubes 3, introducing control rods into the fuel assembly enable and 100 plutonium fuel rods 5, which are the undermoderated part of the fuel assembly forms.

The 100 fuel rods 5 are connected by means of 81 profile struts 6 kept at a small distance from each other. FIG. 2 shows the arrangement of four plutonium fuel rods 5 μm a profile strut 6, with which this with a distance of 9.75 mm between the axes of the fuel rods whose

Outside diameter is 8.65 mm. Inside the outer protective covering of the fuel rods 5 the gap material is arranged with a certain amount of play that allows it to expand.

The entirety of the 44 guide tubes or a part of these guide tubes can be made of depleted rods Uranium absorbs during the first part of the reactor's operating cycle to determine the reactor's neutron spectrum to harden and to the amount of introduced breeding material that turns into fissile material to convert, to increase. The uranium enriched in the edge area of the cassette in which the fuel rods contain, generated neutrons lead to the fission of the fissile isotopes of plutonium in the central area 4 of the fuel assembly. The ones from this split Resulting neutrons are neutrons with high energy because they are in the undermoderated zone of the fuel assembly were generated. So there is a degradation of the plutonium through the formation of non-fissile ones Prevents isotopes that would be generated in a low-energy neutron flux.

During the second part of the operating cycle of the reactor, that generated in the fuel assembly is generated uses fissile material, thus allowing the recovery of what was originally in the batch to increase the fuel introduced into the reactor.

A batch of the nuclear reactor · consists of joined together identical fuel assemblies, each with an edge zone with fuel rods, made of enriched Uranium and with guide tubes and a central zone with fuel rods made of plutonium. With certain Fuel element cassettes take the guide tubes and all rods to change the energy spectrum

in other fuel assemblies, some of the guide tubes use rods to change the energy spectrum and another part has rods for controlling the reactivity of the reactor and for power control. The fuel assemblies themselves remain identical, in one case they only take rods to change of the energy spectrum and in another case rods for changing the energy spectrum and control rods.

Fig. 3 shows an alternative embodiment. These The fuel assembly has a hexagonal cross-section. The edge area of the fuel assembly consists of with fissile uranium enriched uranium oxide containing fuel rods 10 and 48 guide tubes 12, the rods Add depleted uranium to change the energy spectrum and / or control rods of the reactor.

The middle area 14 of the fuel assembly consists of plutonium fuel rods 15, which by means of profile struts 16 are kept at a distance from each other, which is much smaller than the distance between the fuel rods 10. The area 14 of the fuel assembly thus forms an undermoderated area, in which a hardening of the neutron spectrum by the reduced thickness of the water layers for moderation is achieved.

It is also possible to increase the thickness of the moderating water layer by increasing the diameter of the To reduce fuel rods in the central area.

The functioning of the fuel assembly shown in Fig. 3 is perfect

identical to the mode of operation of the fuel assembly assembly shown in FIGS. All further The fuel assembly of the reactor core is marked with the i "n

Fig. 3 shown identical fuel assembly. Such an arrangement of fuel assemblies is normally taken up in a prism-shaped vessel with a hexagonal cross-section, for example in the French patent applications Nos. 2,511,174 and 2,517,826 of Societe FRAMATOME.

The invention is not restricted to the embodiments described, but rather encompasses all of them conceivable variants.

So z. B. inserted into the fuel rods arranged in the edge area a certain amount of breeding material under the action of high-energy neutrons during the first part of the operating cycle of the reactor can convert into fissile material.

The fuel assembly according to the invention cannot only to reuse recovered plutonium in pressurized water reactors, but also as undermoderated Fuel element cassette, which contains both fissile and incubatable material, is used will. The fuel rods 5 or 15 in the central area of the fuel assembly are made in this case breeding material such as B. depleted uranium instead of recovered plutonium. The inventive In this case, the fuel element cassette is used to carry the charge of an under-moderated reactor to form only one kind of »fuel assembly cassettes.

By having guide tubes, which can accommodate rods for changing the energy spectrum, in the edge area provides, one combines the advantages of a reactor with a change in the energy spectrum with those of a undermoderated reactor.

The fuel rods in the central area of the fuel assembly can by means of a spiral on the outer surface these rods wound wires instead of using the profile beams described to each other be kept at a small distance.

Finally, the fuel assembly according to the invention used in all water-cooled nuclear reactors, which have a heterogeneous structure strives for the reactor core with zones of different moderation factors.

Claims (5)

BEETZ & PARTNER patent attorneys " Steinsdorfstrasse 10 ■ D-8000 Munich 22 European patent attorneys Telephone (089) 227201 - 227244 - 295910 _{R ßEETZ gen} . Telex 522048 - Telegram Allpat "Munich Dr-Ina R BEETZ iun 1O-36. 745P (36.746H) Priv.-Doz. Dipl.-Chem. Dr. rer. nat W. SCHMITT-FUMIAN Dipl.-Ing. K. LAMPRECHT 11981 Sep 28, 1984 FRAMATOME & CIE
924oo Courbevoie, France Expectations (1.) Fuel element cassette for a pressurized water nuclear reactor, with a bundle of fuel rods arranged parallel to one another in the longitudinal direction of the cassette, which in the transverse direction are spaced to allow a circulation of cooling water and the formation of a moderating water layer to allow around the fuel rods marked by, - One of a first group of fuel rods (2; 10) formed edge region (1; 11) in which the fuel rods are essentially enriched with fissile uranium Contain uranium oxide, which emit neutrons and maintain the nuclear reaction, and which are arranged at such a distance from one another that the moderating layer of water is sufficiently thick is to transfer the neutrons into the range of thermal energies, and - A central region (4; 14) formed from a second group of fuel rods (5; 15) in which the 310-83 / 93 Fuel rods contain essentially plutonium or uranium depleted in fissile uranium, and with a spacing are arranged to each other, which is significantly smaller than the distance between the fuel rods (2; 10) in the edge area (1; 11). 2. Fuel element cassette according to claim 1, characterized in that that the distance at which the fuel rods (5; 15) are arranged in the central region (4; 14) to one another, defines a water layer of a thickness sufficiently small that the generated neutrons have high energy. 3. fuel assembly according to claim 1 or 2, characterized by Guide tubes (3; 12) arranged in the edge zone for receiving rods for changing the energy spectrum . 4. fuel assembly according to one of claims 1 to 3, characterized, that the fuel rods (5; 15) of the central area (4; 14) of the fuel assembly cassette are held at a distance from one another by means of longitudinal profile struts (6). 5. Fuel element cassette according to one of claims 1 to 3, characterized in that that the fuel rods (5; 15) of the central region (4; 14) of the fuel assembly through onto its outer surface spirally wound wires are kept at a distance from one another.